The invention relates to a safety system for a motor vehicle (1), comprising a sensor (2) for predicting an imminent collision, which sensor is coupled to an evaluating unit (3), a control device (10) for triggering a first device (7, 9) at a defined first time before the predicted collision, which first device causes a rearward displacement of at least one vehicle occupant (4), wherein the control device (10) is designed to trigger a second device (8) at a defined second time before the predicted collision which follows the first time, which second device applies a counter force to the at least one vehicle occupant (4).
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17. A method of controlling a safety system for a motor vehicle, comprising:
predicting the presence of an impending collision;
triggering operation of a first device at a predetermined first time instance prior to the predicted collision to cause a rearward displacement of at least one vehicle occupant; and
triggering operation of a second device at a predetermined second time instance that follows the first time instance prior to the predicted collision to apply a counterforce upon the at least one occupant.
9. A motor vehicle, comprising a safety system including an evaluation unit, a sensor, operably connected to the evaluation unit, for predicting an impending collision, a first device configured to cause a rearward displacement of at least one vehicle occupant, a second device configured to apply a counterforce upon the at least one vehicle occupant, and a control device configured to trigger operation of the first device at a predetermined first time instance prior to the predicted collision to cause the rearward displacement of the at least one vehicle occupant, said control device being configured to trigger at a predetermined second time instance that follows the first time instance prior to the predicted collision operation of the second device to apply the counterforce.
1. A safety system for a motor vehicle, comprising:
an evaluation unit;
a sensor, operably connected to the evaluation unit, for predicting an impending collision;
a first device configured to cause a rearward displacement of at least one vehicle occupant;
a second device configured to apply a counterforce upon the at least one vehicle occupant; and
a control device configured to trigger operation of the first device at a predetermined first time instance prior to the predicted collision to cause the rearward displacement of the at least one vehicle occupant, said control device being configured to trigger at a predetermined second time instance that follows the first time instance prior to the predicted collision operation of the second device to apply the counterforce.
2. The safety system of
3. The safety system of
4. The safety system of
5. The safety system of
6. The safety system of
7. The safety system of
8. The safety system of
10. The motor vehicle of
11. The motor vehicle of
12. The motor vehicle of
13. The motor vehicle of
14. The motor vehicle of
15. The motor vehicle of
16. The motor vehicle of
18. The method of
19. The method of
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This application is the U.S. National Stage of International Application No. PCT/EP2014/001493, filed Jun. 3, 2014, which designated the United States and has been published as International Publication No. WO 2014/198389 and which claims the priority of German Patent Application, Serial No. 10 2013 009 717.7, filed Jun. 11, 2013, pursuant to 35 U.S.C. 119(a)-(d).
The invention relates to a safety system for a motor vehicle, including a sensor, coupled to an evaluation unit, for predicting an impending collision, a control device for triggering a first device to cause a rearward displacement of at least one vehicle occupant at a predetermined first time instance prior to the predicted collision.
Safety systems in motor vehicles are primarily provided to protect vehicle occupants from injuries or reduce such injuries in the event of an impact. Examples of such safety systems are airbags, shiftable steering systems, or belt tensioners. Originally, activation of such safety systems took place in terms of time only after an impact. In the meantime, safety systems have been proposed which enable activation already before a collision.
DE 10 2011 108 915 A1 describes a restraining device for a motor vehicle, using a sensor to determine an impending impact. When recognizing an impending collision, the vehicle occupants are shifted backwards to thereby attempt a reduction of a speed differential between the vehicle occupants and the vehicle at the time of the impact. In this way, stress on the vehicle occupants shall be minimized. The rearward displacement can be realized by a controlled movement of the vehicle seat. In this safety system, the phase to couple the vehicle occupants to the deceleration of the vehicle occurs only after the impact has begun. At the beginning of the collision, there exists a certain elasticity. However, efforts are underway to realize a best possible coupling of the vehicle occupants to the vehicle so as to minimize forces and accelerations acting on the vehicle occupants. The degree of coupling between a vehicle occupant and the vehicle is indicated by the ride-down effect or respective RDE value which may range between 0% and 100%. A high RDE value is beneficial and means that a vehicle occupant is decelerated already when the collision begins.
The invention is thus based on the object to provide a safety system for a motor vehicle to improve the coupling of a vehicle occupant to the vehicle during the collision.
This object is attained by a safety system of the type mentioned above in which the control device is configured to trigger at a predetermined second time instance that follows the first time instance prior to the predicted collision a second device by which a counterforce is applied upon the at least one occupant.
The safety system according to the invention is based on two actions that are triggered successively in time. After predicting an impending collision, a rearward displacement of at least one vehicle occupant is firstly initiated. For this purpose, a first device is triggered to effect this rearward displacement of the vehicle occupant. It is hereby important to trigger this before the predicted impending collision. As a result of this rearward displacement, the vehicle occupant is shifted or displaced in opposition to the travel direction so that, on one hand, the absolute speed of the vehicle occupant is reduced at the time of the impact and, on the other hand, the relative speed is reduced between the vehicle occupant and the vehicle that has been decelerated as of the time of the impact.
Provision may be made in the safety system according to the invention to configure the first and/or the second device such that the counterforce is maintained up to the collision. The advantageous effect of the safety system according to the invention is realized, when the counterforce is maintained at least up to the beginning of the collision, optionally also beyond that.
Provision may be made in the safety system according to the invention to configure the first device as belt tensioner or airbag. In this way, the desired rearward displacement of the vehicle occupant is implemented by the belt tensioner and/or airbag.
Preferably, the belt tensioner of the safety system according to the invention can be locked as the counterforce is generated, so that the counterforce is maintained.
Likewise, provision may be made in the safety system according to the invention to configure the airbag during generation of the counterforce to have no or no open discharge opening. Accordingly, the airbag lying closely on the vehicle occupant generates and maintains the counterforce.
Preferably, the safety system according to the invention has the second device configured as seat or seat backrest. As the second device is triggered, i.e. by actuating the seat or the seat backrest, the required counterforce is generated.
With respect to the timing sequence, provision may be made in the safety system according to the invention that the first time instance is 300 ms to 5 ms before the predicted collision. At this time instance, the first device is triggered. Preferably, the first time instance may be approximately 100 ms prior to the predicted collision.
In addition, the invention relates to a motor vehicle having a safety system of the described type.
Furthermore, the invention relates to a method of controlling a safety system for a vehicle in which an impending collision can be predicted by a sensor that is coupled to an evaluation unit, and a first device, causing a rearward displacement of at least one vehicle occupant, is triggered by a control device at a predetermined first time instance prior to the predicted collision.
Provision is made in the method according to the invention to have the control device trigger a second device to apply a counterforce upon at least one occupant at a predetermined second time instance which follows the first time instance prior to the predicted collision.
Further configurations of the invention are described in the sub-claims.
Further advantages and details of the invention will now be described on the basis of an exemplified embodiment with reference to the drawings. The drawings are schematic illustrations and show:
In the following, reference is made also to
The motor vehicle 1 shown in
As the belt tensioner 7 is tensed, the vehicle occupant 4 is drawn tighter against the vehicle seat 6, especially against the backrest 8. As shown in
At time instance t3, a second device is triggered to apply a counterforce upon the vehicle occupant 4. In the illustrated exemplary embodiment, the backrest 8 is controlled such that the desired counterforce is exerted upon the vehicle occupant 4. In the illustrated exemplary embodiment, the backrest 8 is moved counterclockwise.
In the illustrated exemplary embodiment, the second device is triggered 50 ms prior to the calculated time instance of the collision tk. The counterforce, generated by the adjustment of the backrest 8, is maintained at least up to the time instance of the collision so that the elasticity of the safety belt 5 of the vehicle seat 6 and the clothing of the vehicle occupant 4 is reduced. The same is true for body parts, such as e.g. thorax or pelvis, which are at risk. As the vehicle occupant 4 has shifted backwards at the time instance when the collision begins and is restrained by the applied counterforce, he participates in the deceleration of the motor vehicle 1 as of the impact, so that the risk of injuries is significantly decreased.
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Aug 13 2015 | KUFER, STEFAN | Audi AG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 037264 | /0077 |
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